Patents by Inventor William J. Benett
William J. Benett has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 6699713Abstract: A portable polymerase chain reaction DNA amplification and detection system includes one or more chamber modules. Each module supports a duplex assay of a biological sample. Each module has two parallel interrogation ports with a linear optical system. The system is capable of being handheld.Type: GrantFiled: December 29, 2000Date of Patent: March 2, 2004Assignee: The Regents of the University of CaliforniaInventors: William J. Benett, James B. Richards, Paul L. Stratton, Dean R. Hadley, Fred P. Milanovich, Phil Belgrader, Peter L. Meyer
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Publication number: 20040018297Abstract: A system of metalization in an integrated polymer microsystem. A flexible polymer substrate is provided and conductive ink is applied to the substrate. In one embodiment the flexible polymer substrate is silicone. In another embodiment the flexible polymer substrate comprises poly(dimethylsiloxane).Type: ApplicationFiled: February 20, 2003Publication date: January 29, 2004Applicant: The Regents of the University of CaliforniaInventors: James Courtney Davidson, Peter A. Krulevitch, Mariam N. Maghribi, William J. Benett, Julie K. Hamilton, Armando R. Tovar
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Patent number: 6586233Abstract: A polymerase chain reaction system provides an upper temperature zone and a lower temperature zone in a fluid sample. Channels set up convection cells in the fluid sample and move the fluid sample repeatedly through the upper and lower temperature zone creating thermal cycling.Type: GrantFiled: March 9, 2001Date of Patent: July 1, 2003Assignee: The Regents of the University of CaliforniaInventors: William J. Benett, James B. Richards, Fred P. Milanovich
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Publication number: 20030119176Abstract: A microfabricated instrument for tissue biopsy and genetic analysis. The instrument is specifically designed to take tissue and blood samples and carry out genetic (DNA) assays in an integrated reaction chamber. The instrument is portable and has the ability to take small tissue or blood samples in a minimally invasive manner from localized regions, then immediately perform the DNA analysis through a technique such as real-time PCR. Thus, this instrument links a minimally invasive micro-biopsy tool with microfluidic channels and a PCR reaction chamber into a single disposable device.Type: ApplicationFiled: December 21, 2001Publication date: June 26, 2003Applicant: The Regents of the University of CaliforniaInventors: Peter Krulevitch, Julie Hamilton, William J. Benett
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Patent number: 6575965Abstract: A medical device is constructed in the basic form of a catheter having a distal end for insertion into and manipulation within a body and a proximal end providing for a user to control the manipulation of the distal end within the body. A fiberoptic cable is disposed within the catheter and having a distal end proximate to the distal end of the catheter and a proximal end for external coupling of laser light energy. A laser-light-to-mechanical-power converter is connected to receive light from the distal end of the fiber optic cable and may include a photo-voltaic cell and an electromechanical motor or a heat-sensitive photo-thermal material. An electronic sensor is connected to receive electrical power from said distal end of the fiberoptic cable and is connected to provide signal information about a particular physical environment and communicated externally through the fiberoptic cable to the proximal end thereof.Type: GrantFiled: November 16, 2000Date of Patent: June 10, 2003Assignee: The Regents of the University of CaliforniaInventors: Joseph P. Fitch, Dennis L. Matthews, Karla G. Hagans, Abraham P. Lee, Peter Krulevitch, William J. Benett, Robert E. Clough, Luiz B. DaSilva, Peter M. Celliers
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Publication number: 20030057391Abstract: Low power integrated pumping and valving arrays which provide a revolutionary approach for performing pumping and valving approach for performing pumping and valving operations in microfabricated fluidic systems for applications such as medical diagnostic microchips. Traditional methods rely on external, large pressure sources that defeat the advantages of miniaturization. Previously demonstrated microfabrication devices are power and voltage intensive, only function at sufficient pressure to be broadly applicable. This approach integrates a lower power, high-pressure source with a polymer, ceramic, or metal plug enclosed within a microchannel, analogous to a microsyringe. When the pressure source is activated, the polymer plug slides within the microchannel, pumping the fluid on the opposite side of the plug without allowing fluid to leak around the plug. The plugs also can serve as microvalves.Type: ApplicationFiled: September 21, 2001Publication date: March 27, 2003Applicant: The Regents of the University of CaliforniaInventors: Peter A. Krulevitch, William J. Benett, Klint A. Rose, Julie Hamilton, Mariam Maghribi
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Publication number: 20030036189Abstract: A sleeve-type silicon polymerase chain reaction (PCR) chamber or thermocycler having improved thermal performance. The silicon sleeve reaction chamber is improved in thermal performance by etched features therein that reduce thermal mass and increase the surface area of the sleeve for cooling. This improved thermal performance of the thermocycler enables an increase in speed and efficiency of the reaction chamber. The improvement is accomplished by providing grooves in the faces of the sleeve and a series of grooves on the interior surfaces that connect with grooves on the faces of the sleeve. The grooves can be anisotropically etched in the silicon sleeve simultaneously with formation of the chamber.Type: ApplicationFiled: September 27, 2002Publication date: February 20, 2003Applicant: The Regents of the University of CaliforniaInventors: William J. Benett, James B. Richards
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Patent number: 6503750Abstract: A sleeve-type silicon polymerase chain reaction (PCR) chamber or thermocycler having improved thermal performance. The silicon sleeve reaction chamber is improved in thermal performance by etched features therein that reduce thermal mass and increase the surface area of the sleeve for cooling. This improved thermal performance of the thermocycler enables an increase in speed and efficiency of the reaction chamber. The improvement is accomplished by providing grooves in the faces of the sleeve and a series of grooves on the interior surfaces that connect with grooves on the faces of the sleeve. The grooves can be anisotropically etched in the silicon sleeve simultaneously with formation of the chamber.Type: GrantFiled: November 25, 1998Date of Patent: January 7, 2003Assignee: The Regents of the University of CaliforniaInventors: William J. Benett, James B. Richards
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Publication number: 20020190393Abstract: An electrical connector is formed from a sheet of electrically conductive material that lies in between the two layers of nonconducting material that comprise the casing of an electrical chip. The connector is electrically connected to an electrical element embedded within the chip. An opening in the sheet is concentrically aligned with a pair of larger holes respectively bored through the nonconducting layers. The opening is also smaller than the diameter of an electrically conductive contact pin. However, the sheet is composed flexible material so that the opening adapts to the diameter of the pin when the pin is inserted therethrough. The periphery of the opening applies force to the sides of the pin when the pin is inserted, and thus holds the pin within the opening and in contact with the sheet, by friction. The pin can be withdrawn from the connector by applying sufficient axial force.Type: ApplicationFiled: June 19, 2001Publication date: December 19, 2002Applicant: The Regents of the University of CaliforniaInventors: William J. Benett, Harold D. Ackler
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Publication number: 20020191826Abstract: A portable polymerase chain reaction DNA amplification and detection system includes one or more chamber modules. Each module supports a duplex assay of a biological sample. Each module has two parallel interrogation ports with a linear optical system. The system is capable of being handheld.Type: ApplicationFiled: December 29, 2000Publication date: December 19, 2002Applicant: The Regents of the University of CaliforniaInventors: William J. Benett, James B. Richards, Paul L. Stratton, Dean R. Hadley, Fred P. Milanovich, Phil Belgrader, Peter L. Meyer
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Patent number: 6491685Abstract: An acoustic focusing device whose acoustic waves are generated by laser radiation through an optical fiber. The acoustic energy is capable of efficient destruction of renal and biliary calculi and deliverable to the site of the calculi via an endoscopic procedure. The device includes a transducer tip attached to the distal end of an optical fiber through which laser energy is directed. The transducer tip encapsulates an exogenous absorbing dye. Under proper irradiation conditions (high absorbed energy density, short pulse duration) a stress wave is produced via thermoelastic expansion of the absorber for the destruction of the calculi. The transducer tip can be configured into an acoustic lens such that the transmitted acoustic wave is shaped or focused.Type: GrantFiled: March 1, 2000Date of Patent: December 10, 2002Assignee: The Regents of the University of CaliforniaInventors: Steven R. Visuri, Anthony J. Makarewicz, Richard A. London, William J. Benett, Peter Krulevitch, Luiz B. Da Silva
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Publication number: 20020127152Abstract: A polymerase chain reaction system provides an upper temperature zone and a lower temperature zone in a fluid sample. Channels set up convection cells in the fluid sample and move the fluid sample repeatedly through the upper and lower temperature zone creating thermal cycling.Type: ApplicationFiled: March 9, 2001Publication date: September 12, 2002Applicant: The Regents of the University of CaliforniaInventors: William J. Benett, James B. Richards, Fred P. Milanovich
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Publication number: 20020058890Abstract: An acoustic focusing device whose acoustic waves are generated by laser radiation through an optical fiber. The acoustic energy is capable of efficient destruction of renal and biliary calculi and deliverable to the site of the calculi via an endoscopic procedure. The device includes a transducer tip attached to the distal end of an optical fiber through which laser energy is directed. The transducer tip encapsulates an exogenous absorbing dye. Under proper irradiation conditions (high absorbed energy density, short pulse duration) a stress wave is produced via thermoelastic expansion of the absorber for the destruction of the calculi. The transducer tip can be configured into an acoustic lens such that the transmitted acoustic wave is shaped or focused.Type: ApplicationFiled: March 1, 2000Publication date: May 16, 2002Inventors: Steven R. Visuri, Anthony J. Makarewicz, Richard A. London, William J. Benett, Peter Krulevitch, Luiz B. Da Silva
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Patent number: 6370757Abstract: A method and apparatus for loading deposit material, such as an embolic coil, into a shape memory polymer (SMP) gripping/release mechanism. The apparatus enables the application of uniform pressure to secure a grip by the SMP mechanism on the deposit material via differential pressure between, for example, vacuum within the SMP mechanism and hydrostatic water pressure on the exterior of the SMP mechanism. The SMP tubing material of the mechanism is heated to above the glass transformation temperature (Tg) while reshaping, and subsequently cooled to below Tg to freeze the shape. The heating and/or cooling may, for example, be provided by the same water applied for pressurization or the heating can be applied by optical fibers packaged to the SMP mechanism for directing a laser beam, for example, thereunto. At a point of use, the deposit material is released from the SMP mechanism by reheating the SMP material to above the temperature Tg whereby it returns to its initial shape.Type: GrantFiled: May 10, 2000Date of Patent: April 16, 2002Assignee: The Regents of the University of CaliforniaInventors: Abraham P. Lee, William J. Benett, Daniel L. Schumann, Peter A. Krulevitch, Joseph P. Fitch
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Publication number: 20010047579Abstract: A method and apparatus for loading deposit material, such as an embolic coil, into a shape memory polymer (SMP) gripping/release mechanism. The apparatus enables the application of uniform pressure to secure a grip by the SMP mechanism on the deposit material via differential pressure between, for example, vacuum within the SMP mechanism and hydrostatic water pressure on the exterior of the SMP mechanism. The SMP tubing material of the mechanism is heated to above the glass transformation temperature (Tg) while reshaping, and subsequently cooled to below Tg to freeze the shape. The heating and/or cooling may, for example, be provided by the same water applied for pressurization or the heating can be applied by optical fibers packaged to the SMP mechanism for directing a laser beam, for example, thereunto. At a point of use, the deposit material is released from the SMP mechanism by reheating the SMP material to above the temperature Tg whereby it returns to its initial shape.Type: ApplicationFiled: May 10, 2000Publication date: December 6, 2001Inventors: Abraham P. Lee, William J. Benett, Daniel L. Schumann, Peter A. Krulevitch, Joseph P. Fitch
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Patent number: 6319474Abstract: A microfabricated biopsy/histology instrument which has several advantages over the conventional procedures, including minimal specimen handling, smooth cutting edges with atomic sharpness capable of slicing very thin specimens (approximately 2 &mgr;m or greater), micro-liter volumes of chemicals for treating the specimens, low cost, disposable, fabrication process which renders sterile parts, and ease of use. The cutter is a “cheese-grater” style design comprising a block or substrate of silicon and which uses anisotropic etching of the silicon to form extremely sharp and precise cutting edges. As a specimen is cut, it passes through the silicon cutter and lies flat on a piece of glass which is bonded to the cutter. Microchannels are etched into the glass or silicon substrates for delivering small volumes of chemicals for treating the specimen. After treatment, the specimens can be examined through the glass substrate.Type: GrantFiled: June 7, 1999Date of Patent: November 20, 2001Assignee: The Regents of the University of CaliforniaInventors: Peter A. Krulevitch, Abraham P. Lee, M. Allen Northrup, William J. Benett
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Patent number: 6273478Abstract: A miniature connector for introducing microliter quantities of solutions into microfabricated fluidic devices, and which incorporates a molded ring or seal set into a ferrule cartridge, with or without a compression screw. The fluidic connector, for example, joins standard high pressure liquid chromatography (HPLC) tubing to 1 mm diameter holes in silicon or glass, enabling ml-sized volumes of sample solutions to be merged with &mgr;l-sized devices. The connector has many features, including ease of connect and disconnect; a small footprint which enables numerous connectors to be located in a small area; low dead volume; helium leak-tight; and tubing does not twist during connection. Thus the connector enables easy and effective change of microfluidic devices and introduction of different solutions in the devices.Type: GrantFiled: March 30, 1999Date of Patent: August 14, 2001Assignee: The Regents of the University of CaliforniaInventors: William J. Benett, Peter A. Krulevitch
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Patent number: 6240630Abstract: A method and apparatus for loading deposit material, such as an embolic coil, into a shape memory polymer (SMP) gripping/release mechanism. The apparatus enables the application of uniform pressure to secure a grip by the SMP mechanism on the deposit material via differential pressure between, for example, vacuum within the SMP mechanism and hydrostatic water pressure on the exterior of the SMP mechanism. The SMP tubing material of the mechanism is heated to above the glass transformation temperature (Tg) while reshaping, and subsequently cooled to below Tg to freeze the shape. The heating and/or cooling may, for example, be provided by the same water applied for pressurization or the heating can be applied by optical fibers packaged to the SMP mechanism for directing a laser beam, for example, thereunto. At a point of use, the deposit material is released from the SMP mechanism by reheating the SMP material to above the temperature Tg whereby it returns to its initial shape.Type: GrantFiled: December 3, 1997Date of Patent: June 5, 2001Assignee: The Regents of the University of CaliforniaInventors: Abraham P. Lee, William J. Benett, Daniel L. Schumann, Peter A. Krulevitch, Joseph P. Fitch
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Patent number: 6209928Abstract: A miniature connector for introducing microliter quantities of solutions into microfabricated fluidic devices. The fluidic connector, for example, joins standard high pressure liquid chromatography (HPLC) tubing to 1 mm diameter holes in silicon or glass, enabling ml-sized volumes of sample solutions to be merged with &mgr;l-sized devices. The connector has many features, including ease of connect and disconnect; a small footprint which enables numerous connectors to be located in a small area; low dead volume; helium leak-tight; and tubing does not twist during connection. Thus the connector enables easy and effective change of microfluidic devices and introduction of different solutions in the devices.Type: GrantFiled: June 4, 1998Date of Patent: April 3, 2001Assignee: The Regents of the University of CaliforniaInventors: William J. Benett, Peter A. Krulevitch
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Patent number: 6102933Abstract: Microfabricated therapeutic actuators are fabricated using a shape memory polymer (SMP), a polyurethane-based material that undergoes a phase transformation at a specified temperature (Tg). At a temperature above temperature Tg material is soft and can be easily reshaped into another configuration. As the temperature is lowered below temperature Tg the new shape is fixed and locked in as long as the material stays below temperature Tg. Upon reheating the material to a temperature above Tg, the material will return to its original shape. By the use of such SMP material, SMP microtubing can be used as a release actuator for the delivery of embolic coils through catheters into aneurysms, for example. The microtubing can be manufactured in various sizes and the phase change temperature Tg is determinate for an intended temperature target and intended use.Type: GrantFiled: February 5, 1999Date of Patent: August 15, 2000Assignee: The Regents of the University of CaliforniaInventors: Abraham P. Lee, M. Allen Northrup, Dino R. Ciarlo, Peter A. Krulevitch, William J. Benett